Your search keyword '"Barendregt, B.H. (Barbara)"' showing total 13 results

1. Soluble Interleukin-2 Receptor Is a Promising Serum Biomarker for Granulomatous Disease in Common Variable Immune Deficiency

Author

van Stigt, A.C. (Astrid C.), Dalm, V.A.S.H. (Virgil), Nagtzaam, N.M. (Nicole), van Rijswijk, D.A. (Damian A.), Barendregt, B.H. (Barbara), van Hagen, P.M. (P. Martin), IJspeert, H. (Hanna), Dik, W.A. (Willem), van Stigt, A.C. (Astrid C.), Dalm, V.A.S.H. (Virgil), Nagtzaam, N.M. (Nicole), van Rijswijk, D.A. (Damian A.), Barendregt, B.H. (Barbara), van Hagen, P.M. (P. Martin), IJspeert, H. (Hanna), and Dik, W.A. (Willem)

Published

2021

2. The Clinical and Genetic Spectrum of 82 Patients With RAG Deficiency Including a c.256_257delAA Founder Variant in Slavic Countries

Author

Sharapova, S.O. (Svetlana O.), Skomska-Pawliszak, M. (Małgorzata), Rodina, Y.A. (Yulia A.), Wolska-Kusnierz, B. (Beata), Dabrowska-Leonik, N. (Nel), Mikoluc, B. (Bozena), Pashchenko, O.E. (Olga E.), Pasic, S. (Srdjan), Freiberger, T. (Tomáš), Milota, T. (Tomáš), Formánková, R. (Renata), Szaflarska, A. (Anna), Siedlar, M. (Maciej), Avcin, T. (Tadej), Markelj, G. (Gašper), Ciznar, P. (P.), Kalwak, K. (Krzysztof), Kołtan, S. (Sylwia), Jackowska, T. (Teresa), Drabko, K. (Katarzyna), Gagro, A. (Alenka), Pac, M. (Malgorzata), Naumova, E. (Elissaveta), Kandilarova, S. (Snezhina), Babol-Pokora, K. (Katarzyna), Varabyou, D.S. (Dzmitry S.), Barendregt, B.H. (Barbara), Raykina, E.V. (Elena V.), Varlamova, T.V. (Tatiana V.), Pavlova, A.V. (Anna V.), Grombirikova, H. (Hana), Debeljak, M. (Maruša), Mersiyanova, I.V. (Irina V.), Bondarenko, A.V. (Anastasiia V.), Chernyshova, L.I. (Liudmyla I.), Kostyuchenko, L. (Larysa), Guseva, M. (Marina), Rascon, J. (Jelena), Muleviciene, A. (Audrone), Preiksaitiene, E. (Egle), Geier, C.B. (Christoph B.), Leiss-Piller, A. (Alexander), Yamazaki, Y. (Yasuhiro), Kawai, T. (Tomoki), Walter, J.E. (Jolan E.), Kondratenko, I. (Irina), Sediva, A. (A.), Burg, M. (Mirjam) van der, Kuzmenko, N.B. (Natalia B.), Notarangelo, L.D. (Luigi Daniele), Bernatowska, E. (Ewa), Aleinikova, O. (O.), Sharapova, S.O. (Svetlana O.), Skomska-Pawliszak, M. (Małgorzata), Rodina, Y.A. (Yulia A.), Wolska-Kusnierz, B. (Beata), Dabrowska-Leonik, N. (Nel), Mikoluc, B. (Bozena), Pashchenko, O.E. (Olga E.), Pasic, S. (Srdjan), Freiberger, T. (Tomáš), Milota, T. (Tomáš), Formánková, R. (Renata), Szaflarska, A. (Anna), Siedlar, M. (Maciej), Avcin, T. (Tadej), Markelj, G. (Gašper), Ciznar, P. (P.), Kalwak, K. (Krzysztof), Kołtan, S. (Sylwia), Jackowska, T. (Teresa), Drabko, K. (Katarzyna), Gagro, A. (Alenka), Pac, M. (Malgorzata), Naumova, E. (Elissaveta), Kandilarova, S. (Snezhina), Babol-Pokora, K. (Katarzyna), Varabyou, D.S. (Dzmitry S.), Barendregt, B.H. (Barbara), Raykina, E.V. (Elena V.), Varlamova, T.V. (Tatiana V.), Pavlova, A.V. (Anna V.), Grombirikova, H. (Hana), Debeljak, M. (Maruša), Mersiyanova, I.V. (Irina V.), Bondarenko, A.V. (Anastasiia V.), Chernyshova, L.I. (Liudmyla I.), Kostyuchenko, L. (Larysa), Guseva, M. (Marina), Rascon, J. (Jelena), Muleviciene, A. (Audrone), Preiksaitiene, E. (Egle), Geier, C.B. (Christoph B.), Leiss-Piller, A. (Alexander), Yamazaki, Y. (Yasuhiro), Kawai, T. (Tomoki), Walter, J.E. (Jolan E.), Kondratenko, I. (Irina), Sediva, A. (A.), Burg, M. (Mirjam) van der, Kuzmenko, N.B. (Natalia B.), Notarangelo, L.D. (Luigi Daniele), Bernatowska, E. (Ewa), and Aleinikova, O. (O.)

Abstract

Background: Variants in recombination-activating genes (RAG) are common genetic causes of autosomal recessive forms of combined immunodeficiencies (CID) ranging from severe combined immunodeficiency (SCID), Omenn syndrome (OS), leaky SCID, and CID with granulomas and/or autoimmunity (CID-G/AI), and even milder presentation with antibody deficiency. Objective: We aim to estimate the incidence, clinical presentation, genetic variability, and treatment outcome with geographic distribution of patients with the RAG defects in populations inhabiting South, West, and East Slavic countries. Methods: Demographic, clinical, and laboratory data were collected from RAG-deficient patients of Slavic origin via chart review, retrospectively. Recombinase activity was determined in vitro by flow cytometry-based assay. Results: Based on the clinical and immunologic phenotype, our cohort of 82 patients from 68 families represented a wide spectrum of RAG deficiencies, including SCID (n = 20), OS (n = 37), and LS/CID (n = 25) phenotypes. Sixty-seven (81.7%) patients carried RAG1 and 15 patients (18.3%) carried RAG2 biallelic variants. We estimate that the minimal annual incidence of RAG deficiency in Slavic countries varies between 1 in 180,000 and 1 in 300,000 live births, and it may vary secondary to health care disparities in these regions. In our cohort, 70% (n = 47) of patients with RAG1 variants carried p.K86Vfs*33 (c.256_257delAA) allele, either in homozygous (n = 18, 27%) or in compound heterozygous (n = 29, 43%) form. The majority (77%) of patients with homozygous RAG1 p.K86Vfs*33 variant originated from Vistula watershed area in Central and Eastern Poland, and compound heterozygote cases were distributed among all Slavic countries except Bulgaria. Clinical and immunological presentation of homozygous RAG1 p.K86Vfs*33 cases was highly diverse (SCID, OS, and AS/CID) suggestive of strong influence of additional genetic and/or epigenetic factors in shaping the final phenotype. Con

Published

2020

3. Rapid Low-Cost Microarray-Based Genotyping for Genetic Screening in Primary Immunodeficiency

Author

Suratannon, N. (Narissara), van Wijck, R.T.A. (Rogier T. A.), Broer, L. (Linda), Xue, L. (Laixi), Meurs, J.B.J. (Joyce) van, Barendregt, B.H. (Barbara), Burg, M. (Mirjam) van der, Dik, W.A. (Willem), Chatchatee, P. (Pantipa), Langerak, A.W. (Anton), Swagemakers, S.M.A. (Sigrid), Goos, J.A.C. (Jacqueline), Mathijssen, I.M.J. (Irene M. J.), Dalm, V.A.S.H. (Virgil), Suphapeetiporn, K. (Kanya), Heezen, K. (Kim), Drabwell, J. (Jose), Uitterlinden, A.G. (André), Spek, P.J. (Peter) van der, van Hagen, P.M. (P. Martin), Suratannon, N. (Narissara), van Wijck, R.T.A. (Rogier T. A.), Broer, L. (Linda), Xue, L. (Laixi), Meurs, J.B.J. (Joyce) van, Barendregt, B.H. (Barbara), Burg, M. (Mirjam) van der, Dik, W.A. (Willem), Chatchatee, P. (Pantipa), Langerak, A.W. (Anton), Swagemakers, S.M.A. (Sigrid), Goos, J.A.C. (Jacqueline), Mathijssen, I.M.J. (Irene M. J.), Dalm, V.A.S.H. (Virgil), Suphapeetiporn, K. (Kanya), Heezen, K. (Kim), Drabwell, J. (Jose), Uitterlinden, A.G. (André), Spek, P.J. (Peter) van der, and van Hagen, P.M. (P. Martin)

Abstract

Background: Genetic tests for primary immunodeficiency disorders (PIDs) are expensive, time-consuming, and not easily accessible in developing countries. Therefore, we studied the feasibility of a customized single nucleotide variant (SNV) microarray that we developed to detect disease-causing variants and copy number variation (CNV) in patients with PIDs for only 40 Euros. Methods: Probes were custom-designed to genotype 9,415 variants of 277 PID-related genes, and were added to the genome-wide Illumina Global Screening Array (GSA). Data analysis of GSA was performed using Illumina GenomeStudio 2.0, Biodiscovery Nexus 10.0, and R-3.4.4 software. Validation of genotype calling was performed by comparing the GSA with whole-genome sequencing (WGS) data of 56 non-PID controls. DNA samples of 95 clinically diagnosed PID patients, of which 60 patients (63%) had a genetically established diagnosis (by Next-Generation Sequencing (NGS) PID panels or Sanger sequencing), we

Published

2020

4. EuroFlow Standardized Approach to Diagnostic Immunopheneotyping of Severe PID in Newborns and Young Children

Author

Kalina, T. (Tomas), Bakardjieva, M. (Marina), Blom, M. (Maartje), Perez-Andres, M., Barendregt, B.H. (Barbara), Kanderová, V. (V.), Bonroy, C. (Carolien), Philippé, J. (Jan), Blanco, E. (Elena), Pico-Knijnenburg, I. (Ingrid), Paping, J.H.M.P. (Jitse H. M. P.), Wolska-Kusnierz, B. (Beata), Pac, M. (Malgorzata), Tkazcyk, J. (Jakub), Haerynck, F. (Filomeen), Akar, H.H. (H. Haluk), Formánková, R. (Renata), Freiberger, T. (Tomáš), Svatoň, M. (Michael), Sediva, A. (A.), Arriba-Méndez, S. (Sonia), Orfao, A. (Alberto), Dongen, J.J.M. (Jacques) van, Burg, M. (Mirjam) van der, Kalina, T. (Tomas), Bakardjieva, M. (Marina), Blom, M. (Maartje), Perez-Andres, M., Barendregt, B.H. (Barbara), Kanderová, V. (V.), Bonroy, C. (Carolien), Philippé, J. (Jan), Blanco, E. (Elena), Pico-Knijnenburg, I. (Ingrid), Paping, J.H.M.P. (Jitse H. M. P.), Wolska-Kusnierz, B. (Beata), Pac, M. (Malgorzata), Tkazcyk, J. (Jakub), Haerynck, F. (Filomeen), Akar, H.H. (H. Haluk), Formánková, R. (Renata), Freiberger, T. (Tomáš), Svatoň, M. (Michael), Sediva, A. (A.), Arriba-Méndez, S. (Sonia), Orfao, A. (Alberto), Dongen, J.J.M. (Jacques) van, and Burg, M. (Mirjam) van der

Abstract

The EuroFlow PID consortium developed a set of flow cytometry tests for evaluation of patients with suspicion of primary immunodeficiency (PID). In this technical report we evaluate the performance of the SCID-RTE tube that explores the presence of recent thymic emigrants (RTE) together with T-cell activation status and maturation stages and discuss its applicability in the context of the broader EuroFlow PID flow cytometry testing algorithm for diagnostic orientation of PID of the lymphoid system. We have analyzed peripheral blood cells of 26 patients diagnosed between birth and 2 years of age with a genetically defined primary immunodeficiency disorder: 15

Published

2020

5. Endocrine disorders are prominent clinical features in patients with primary antibody deficiencies

Author

Coopmans, E.C. (Eva C.), Chunharojrith, P. (Paweena), Neggers, S.J.C.M.M. (Sebastian J. C. M. M.), van der Ent, M.W. (Marianne W.), Swagemakers, S.M.A. (Sigrid), Hollink, I.H.I.M. (Iris), Barendregt, B.H. (Barbara), Spek, P.J. (Peter) van der, Lely, A-J. (Aart-Jan) van der, Hagen, P.M. (Martin) van, Dalm, V.A.S.H. (Virgil), Coopmans, E.C. (Eva C.), Chunharojrith, P. (Paweena), Neggers, S.J.C.M.M. (Sebastian J. C. M. M.), van der Ent, M.W. (Marianne W.), Swagemakers, S.M.A. (Sigrid), Hollink, I.H.I.M. (Iris), Barendregt, B.H. (Barbara), Spek, P.J. (Peter) van der, Lely, A-J. (Aart-Jan) van der, Hagen, P.M. (Martin) van, and Dalm, V.A.S.H. (Virgil)

Abstract

Background: Primary antibody deficiencies (PADs) and anterior pituitary dysfunction are both rare conditions. However, recent studies have remarkably reported the occurrence of anterior pituitary dysfunction in PAD patients. Methods: In this cross-sectional, single-center study we evaluated the prevalence of endocrine disorders in adult PAD patients. Our study focused on common variable immunodeficiency (CVID), immunoglobulin G (IgG) subclass deficiency (IgGSD), and specific anti-polysaccharide antibody deficiency (SPAD). We assessed hormone levels, performed provocative tests and genetic testing in a subset of patients by direct sequencing of the nuclear factor kappa beta subunit 2 (NFKB2) gene and primary immunodeficiency (PID) gene panel testing by whole exome sequencing (WES). Results: Our results demonstrated that one out of 24 IgGSD/SPAD patients had secondary hypothyroidism and three out of 9 men with IgGSD/SPAD had secondary hypogonadism. Premature ovarian failure was observed in four out of 9 women with CVID and primary testicular failure in one out of 15 men with CVID. In two out of 26 CVID patients we found partial adrenal insufficiency (AI) and in one out of 18 patients with IgGSD/SPAD secondary AI was found. Moreover, in one out of 23 patients with CVID and in two out of 17 patients with IgGSD/SPAD severe growth hormone deficiency (GHD) was found, while one patient with IgGSD/SPAD showed mild GHD. Combined endocrine disorders were detected in two women with CVID (either partial secondary AI or autoimmune thyroiditis with primary hypogonadism) and in three men with IgGSD/SPAD (two with either mild GHD or secondary hypothyroidism combined with secondary hypogonadism, and one man with secondary AI and severe GHD). Genetic testing in a subset of patients did not reveal pathogenic variants in NFKB2 or other known PID-associated genes. Conclusion: This is the first study to describe a high prevalence of both anterior pituitary and end-organ endocrine dysfunct

Published

2019

6. The 11q Terminal Deletion Disorder Jacobsen Syndrome is a Syndromic Primary Immunodeficiency

Author

Dalm, V.A.S.H. (Virgil), Driessen, G.J.A. (Gertjan), Barendregt, B.H. (Barbara), Hagen, P.M. (Martin) van, Burg, M. (Mirjam) van der, Dalm, V.A.S.H. (Virgil), Driessen, G.J.A. (Gertjan), Barendregt, B.H. (Barbara), Hagen, P.M. (Martin) van, and Burg, M. (Mirjam) van der

Abstract

Background: Jacobsen syndrome (JS) is a rare contiguous gene syndrome caused by partial deletion of the long arm of chromosome 11. Clinical features include physical and mental growth retardation, facial dysmorphism, thrombocytopenia, impaired platelet function and pancytopenia. In case reports, recurrent infections and impaired immune cell function compatible with immunodeficiency were described. However, Jacobsen syndrome has not been recognized as an established syndromic primary immunodeficiency. Goal: To evaluate the presence of immunodeficiency in a series of 6 patients with JS. Methods: Medical history of 6 patients with JS was evaluated for recurrent infections. IgG, IgA, IgM and specific antibodies against S. pneumoniae were measured. Response to immunization with a polysaccharide vaccine (Pneumovax) was measured and B and T lymphocyte subset analyses were performed using flowcytometry. Results: Five out of 6 patients suffered from recurrent infections. These patients had low IgG levels and impaired response to S. pneumoniae polysaccharide vaccination. Moreover, we also found a significant decrease in the absolute number of memory B cells, suggesting a defective germinal center function. In a number of patients, low numbers of T lymphocytes and NK cells were found. Conclusions: Most patients with JS suffer from combined immunodeficiency in the presence of recurrent infections. Therefore, we consider JS a syndromic primary immunodeficiency. Early detection of immunodeficiency may reduce the frequency and severity of infections. All JS patients should therefore undergo immunological evaluation. Future studies in a larger cohort of patients will more precisely define the pathophysiology of the immunodeficiency in JS.

Published

2015

7. B-cell development and functions and therapeutic options in adenosine deaminase-deficient patients

Author

Brigida, I. (Immacolata), Sauer, A.V. (Aisha), Ferrua, F. (Francesca), Giannelli, S. (Stefania), Scaramuzza, S. (Samantha), Pistoia, V. (Valentina), Castiello, M.C. (Maria Carmina), Barendregt, B.H. (Barbara), Cicalese, M.P. (Maria Pia), Casiraghi, F. (Federica), Brombin, C. (Chiara), Puck, J. (Jennifer), Muller, K. (Karin), Notarangelo, L.D. (Luigi Daniele), Montin, D. (Davide), Montfrans, J.M. (Joris) van, Roncarolo, M.G. (Maria Grazia), Traggiai, E. (Elisabetta), Dongen, J.J.M. (Jacques) van, Burg, M. (Mirjam) van der, Aiuti, A. (Alessandro), Brigida, I. (Immacolata), Sauer, A.V. (Aisha), Ferrua, F. (Francesca), Giannelli, S. (Stefania), Scaramuzza, S. (Samantha), Pistoia, V. (Valentina), Castiello, M.C. (Maria Carmina), Barendregt, B.H. (Barbara), Cicalese, M.P. (Maria Pia), Casiraghi, F. (Federica), Brombin, C. (Chiara), Puck, J. (Jennifer), Muller, K. (Karin), Notarangelo, L.D. (Luigi Daniele), Montin, D. (Davide), Montfrans, J.M. (Joris) van, Roncarolo, M.G. (Maria Grazia), Traggiai, E. (Elisabetta), Dongen, J.J.M. (Jacques) van, Burg, M. (Mirjam) van der, and Aiuti, A. (Alessandro)

Abstract

Background Adenosine deaminase (ADA) deficiency causes severe cellular and humoral immune defects and dysregulation because of metabolic toxicity. Alterations in B-cell development and function have been poorly studied. Enzyme replacement therapy (ERT) and hematopoietic stem cell (HSC) gene therapy (GT) are therapeutic options for patients lacking a suitable bone marrow (BM) transplant donor. Objective We sought to study alterations in B-cell development in ADA-deficient patients and investigate the ability of ERT and HSC-GT to restore normal B-cell differentiation and function. Methods Flow cytometry was used to characterize B-cell development in BM and the periphery. The percentage of gene-corrected B cells was measured by using quantitative PCR. B cells were assessed for their capacity to proliferate and release IgM after stimulation. Results Despite the severe peripheral B-cell lymphopenia, patients with ADA-deficient severe combined immunodeficiency showed a partial block in central BM development. Treatment with ERT or HSC-GT reverted most BM alterations, but ERT led to immature B-cell expansion. In the periphery transitional B cells accumulated under ERT, and the defect in maturation persisted long-term. HSC-GT led to a progressive improvement in B-cell numbers and development, along with increased levels of gene correction. The strongest selective advantage for ADA-transduced cells occurred at the transition from immature to naive cells. B-cell proliferative responses and differentiation to immunoglobulin secreting IgM after B-cell receptor and Toll-like receptor triggering were severely impaired after ERT and improved significantly after HSC-GT. Conclusions ADA-deficient patients show specific defects in B-cell development and functions that are differently corrected after ERT and HSC-GT.

Published

2014

8. Anti-TNF treatment blocks the induction of T cell-dependent humoral responses

Author

Salinas, M., Rycke, L. (Leen) de, Barendregt, B.H. (Barbara), Paramarta, J.E. (Jacqueline), Hreggvidstdottir, H. (Hulda), Cantaert, T. (Tineke), Burg, M. (Mirjam) van der, Tak, P.P. (Paul), Baeten, D. (Dominique), Salinas, M., Rycke, L. (Leen) de, Barendregt, B.H. (Barbara), Paramarta, J.E. (Jacqueline), Hreggvidstdottir, H. (Hulda), Cantaert, T. (Tineke), Burg, M. (Mirjam) van der, Tak, P.P. (Paul), and Baeten, D. (Dominique)

Abstract

Objective: Experimental and human data suggest that tumour necrosis factor (TNF) blockade may affect B cell responses, in particular the induction of T cell-dependent (TD) humoral immunity. This study aimed to assess this hypothesis directly in patients with arthritis by analysing longitudinally the effect of TNF blockade on B cell activation and the matu

Published

2013

9. Common variable immunodeficiency and idiopathic primary hypogammaglobulinemia: Two different conditions within the same disease spectrum

Author

Driessen, G.J.A. (Gertjan), Dalm, V.A.S.H. (Virgil), Hagen, P.M. (Martin) van, Grashoff, H.A. (Anne), Hartwig, N.G. (Nico), Rossum, A.M.C. (Annemarie) van, Warris, A. (Adilia), Vries, E. (E.) de, Barendregt, B.H. (Barbara), Pico, I. (Ingrid), Posthumus, S.J. (Sandra J), Zelm, M.C. (Menno) van, Dongen, J.J.M. (Jacques) van, Burg, M. (Mirjam) van der, Driessen, G.J.A. (Gertjan), Dalm, V.A.S.H. (Virgil), Hagen, P.M. (Martin) van, Grashoff, H.A. (Anne), Hartwig, N.G. (Nico), Rossum, A.M.C. (Annemarie) van, Warris, A. (Adilia), Vries, E. (E.) de, Barendregt, B.H. (Barbara), Pico, I. (Ingrid), Posthumus, S.J. (Sandra J), Zelm, M.C. (Menno) van, Dongen, J.J.M. (Jacques) van, and Burg, M. (Mirjam) van der

Abstract

Patients with hypogammaglobulinemia who do not fulfill all the classical diagnostic criteria for common variable immunodeficiency (reduction of two immunoglobulin isotypes and a reduced response to vaccination) constitute a diagnostic and therapeutic dilemma, because information concerning the clinical and immunological characteristics of these patients with idiopathic primary hypogammaglobulinemia is not available. In 44 common variable immunodeficiency and 21 idiopathic primary hypogammaglobulinemia patients we determined the clinical phenotypes and performed flow cytometric immunophenotyping to assess the pathophysiological B-cell patterns and memory B-cell subset counts. Age-matched B-cell subset reference values of 130 healthy donors were generated. Severe pneumonia and bronchiectasis occurred at similar frequencies in idiopathic primary hypogammaglobulinemia and common variable immunodeficiency. Although IgG levels were only moderately reduced compared to common variable immunodeficiency, 12 of 21 idiopathic primary hypogammaglobulinemia patients required immunoglobulin replacement. Non-infectious disease-related clinical phenotypes (autoimmune cytopenia, polyclonal lymphocytic proliferation and persistent unexplained enteropathy) were exclusively observed in common variable immunodeficiency and were associated with early peripheral B-cell maturation defects or B-cell survival defects. T-cell dependent memory B-cell formation was more severely affected in common variable immunodeficiency. Furthermore, 14 of 21 idiopathic primary hypogammaglobulinemia patients showed normal peripheral Bcell subset counts, suggestive for a plasma cell defect. In conclusion, idiopathic primary hypogammaglobulinemia patients who do not fulfill all diagnostic criteria of common variable immunodeficiency have moderately decreased immunoglobulin levels and often a normal peripheral B-cell subset distribution, but still suffer from serious infectious complications.

Published

2013

10. Clinical heterogeneity can hamper the diagnosis of patients with ZAP70 deficiency

Author

Turul, T. (Tuba), Tezcan, I. (Ilhan), Bruin-Versteeg, S. (Sandra) de, Barendregt, B.H. (Barbara), Reisli, I. (Ismail), Sanal, O. (Ozden), Dongen, J.J.M. (Jacques) van, Burg, M. (Mirjam) van der, Turul, T. (Tuba), Tezcan, I. (Ilhan), Bruin-Versteeg, S. (Sandra) de, Barendregt, B.H. (Barbara), Reisli, I. (Ismail), Sanal, O. (Ozden), Dongen, J.J.M. (Jacques) van, and Burg, M. (Mirjam) van der

Abstract

One of the severe combined immunodeficiencies (SCIDs), which is caused by a genetic defect in the signal transduction pathways involved in T-cell activation, is the ZAP70 deficiency. Mutations in ZAP70 lead to both abnormal thymic development and defective T-cell receptor (TCR) signaling of peripheral T-cells. In contrast to the lymphopenia in most SCID patients, ZAP70-deficient patients have lymphocytosis, despite the selective absence of CD8+ T-cells. The clinical presentation is usually before 2 years of age with typical findings of SCID. Here, we present three new ZAP70-deficient patients who vary in their clinical presentation. One of the ZAP70-deficient patients presented as a classical SCID, the second patient presented as a healthy looking wheezy infant, whereas the third patient came to clinical attention for the eczematous skin lesions simulating atopic dermatitis with eosinophilia and elevated immunoglobulin E (IgE), similar to the Omenn syndrome. This study illustrates that awareness of the clinical heterogeneity of ZAP70 deficiency is of utmost importance for making a fast and accurate diagnosis, which will contribute to the improvement of the adequate treatment of this severe immunodeficiency.

Published

2009

11. A new type of radiosensitive T-B-NK+ severe combined immunodeficiency caused by a LIG4 mutation

Author

Burg, M. (Mirjam) van der, Zdzienicka, M.Z. (Malgorzata), Dongen, J.J.M. (Jacques) van, Gent, D.C. (Dik) van, Veelen, L.R. (Lieneke) van, Verkaik, N.S. (Nicole), Wiegant, W.W. (Wouter), Hartwig, N.G. (Nico), Barendregt, B.H. (Barbara), Brugmans, L.J.L. (Linda), Raams, A. (Anja), Jaspers, N.G.J. (Nicolaas), Burg, M. (Mirjam) van der, Zdzienicka, M.Z. (Malgorzata), Dongen, J.J.M. (Jacques) van, Gent, D.C. (Dik) van, Veelen, L.R. (Lieneke) van, Verkaik, N.S. (Nicole), Wiegant, W.W. (Wouter), Hartwig, N.G. (Nico), Barendregt, B.H. (Barbara), Brugmans, L.J.L. (Linda), Raams, A. (Anja), and Jaspers, N.G.J. (Nicolaas)

Abstract

V(D)J recombination of Ig and TCR loci is a stepwise process during which site-specific DNA double-strand breaks (DSBs) are made by RAG1/RAG2, followed by DSB repair by nonhomologous end joining. Defects in V(D)J recombination result in SCID characterized by absence of mature B and T cells. A subset of T -B-NK+ SCID patients is sensitive to ionizing radiation, and the majority of these patients have mutations in Artemis. We present a patient with a new type of radiosensitive T-B -NK+ SCID with a defect in DNA ligase IV (LIG4). To date, LIG4 mutations have only been described in a radiosensitive leukemia patient and in 4 patients with a designated LIG4 syndrome, which is associated with chromosomal instability, pancytopenia, and developmental and growth delay. The patient described here shows that a LIG4 mutation can also cause T -B-NK+ SCID without developmental defects. The LIG4-deficient SCID patient had an incomplete but severe block in precursor B cell differentiation, resulting in extremely low levels of blood B cells. The residual DH-JH junctions showed extensive nucleotide deletions, apparently caused by prolonged exonuclease activity during the delayed DH-JH ligation process. In conclusion, different LIG4 mutations can result in either a developmental defect with minor immunological abnormalities or a SCID picture with normal development.

Published

2006

12. A new type of radiosensitive T-B-NK+ severe combined immunodeficiency caused by a LIG4 mutation

Author

Burg, M. (Mirjam) van der, Zdzienicka, M.Z. (Malgorzata), Gent, D.C. (Dik) van, Dongen, J.J.M. (Jacques) van, Veelen, L.R. (Lieneke) van, Verkaik, N.S. (Nicole), Wiegant, W.W. (Wouter), Hartwig, N.G. (Nico), Barendregt, B.H. (Barbara), Brugmans, L.J.L. (Linda), Raams, A. (Anja), Jaspers, N.G.J. (Nicolaas), Burg, M. (Mirjam) van der, Zdzienicka, M.Z. (Malgorzata), Gent, D.C. (Dik) van, Dongen, J.J.M. (Jacques) van, Veelen, L.R. (Lieneke) van, Verkaik, N.S. (Nicole), Wiegant, W.W. (Wouter), Hartwig, N.G. (Nico), Barendregt, B.H. (Barbara), Brugmans, L.J.L. (Linda), Raams, A. (Anja), and Jaspers, N.G.J. (Nicolaas)

Abstract

V(D)J recombination of Ig and TCR loci is a stepwise process during which site-specific DNA double-strand breaks (DSBs) are made by RAG1/RAG2, followed by DSB repair by nonhomologous end joining. Defects in V(D)J recombination result in SCID characterized by absence of mature B and T cells. A subset of T-B-NK+ SCID patients is sensitive to ionizing radiation, and the majority of these patients have mutations in Artemis. We present a patient with a new type of radiosensitive T-B-NK+ SCID with a defect in DNA ligase IV (LIG4). To date, LIG4 mutations have only been described in a radiosensitive leukemia patient and in 4 patients with a designated LIG4 syndrome, which is associated with chromosomal instability, pancytopenia, and developmental and growth delay. The patient described here shows that a LIG4 mutation can also cause T-B-NK+ SCID without developmental defects. The LIG4-deficient SCID patient had an incomplete but severe block in precursor B cell differentiation, resulting in extremely low levels of blood B cells. The residual D(H)-J(H) junctions showed extensive nucleotide deletions, apparently caused by prolonged exonuclease activity during the delayed D(H)-J(H) ligation process. In conclusion, different LIG4 mutations can result in either a developmental defect with minor immunological abnormalities or a SCID picture with normal development.

Published

2006

13. Unraveling of the polymorphic C lambda 2-C lambda 3 amplification and the Ke+Oz- polymorphism in the human Ig lambda locus

Author

Burg, M. (Mirjam) van der, Barendregt, B.H. (Barbara), Gastel-Mol, E.J. (Ellen) van, Tümkaya, T. (Talip), Langerak, A.W. (Anton), Dongen, J.J.M. (Jacques) van, Burg, M. (Mirjam) van der, Barendregt, B.H. (Barbara), Gastel-Mol, E.J. (Ellen) van, Tümkaya, T. (Talip), Langerak, A.W. (Anton), and Dongen, J.J.M. (Jacques) van

Abstract

Two polymorphisms of the human Ig(lambda) (IGL) locus have been described. The first polymorphism concerns a single, 2- or 3-fold amplification of 5.4 kb of DNA in the C(lambda)2-C(lambda)3 region. The second polymorphism is the Mcg(-)Ke(+)Oz(-) isotype, which has only been defined via serological analyses in Bence-Jones proteins of multiple myeloma patients and was assumed to be encoded by a polymorphic C(lambda)2 segment because of its high homology with the Mcg(-)Ke(-)Oz(-) C(lambda)2 isotype. It has been speculated that the Mcg(-)Ke(+)Oz(-) isotype might be encoded by a C(lambda) gene segment of the amplified C(lambda)2-C(lambda)3 region. We now unraveled both IGL gene polymorphisms. The amplification polymorphism appeared to result from a duplication, triplication, or quadruplication of a functional J-C(lambda)2 region and is likely to have originated from unequal crossing over of the J-C(lambda)2 and J-C(lambda)3 region via a 2.2-kb homologous repeat. The amplification polymorphism was found to result in the presence of one to five extra functional J-C(lambda)2 per genome regions, leading to decreased Ig(kappa):Ig(lambda) ratios on normal peripheral blood B cells. Via sequence analysis, we demonstrated that the Mcg(-)Ke(+)Oz(-) isotype is encoded by a polymorphic C(lambda)2 segment that differs from the normal C(lambda)2 gene segment at a single nucleotide position. This polymorphism was identified in only 1.5% (2 of 134) of individuals without J-C(lambda)2 amplification polymorphism and was not found in the J-C(lambda)2 amplification polymorphism of 44 individuals, indicating that the two IGL gene polymorphisms are not linked.

Published

2002